Seventy three trillion nine hundred fifty six billion eight hundred eighty eight million four hundred ninety one thousand two hundred sixty three PLUS six million three hundred thirty eight thousand five hundred ninety nine MULTIPLIED by pi, divided by the square root of 8,493, 439, 302, 293, 321
The boiling point of water at 100 psi is 328 degrees Fahrenheit. This converts to a value of 164 degrees Celsius.
the melting point of pure substances is always being sharp. it means that the boiling point it have it will boil at that point not some up or down but on same temperature in other words we say that it has no impurities because of impurities it boiling point varies and it has many other components and boiling point of every component is different so that why the boiling point of impure compounds varies or it don t have exact value and the pure compounds have same elements combine together and every molecule boil at particular point so it has sharp melting point or exact point
The boiling point has a high value.
the ethanol does not show sufficient effect on PH value.... but carboxylic acids dissolved in water show increase in degree of dissociation in presense of small amount of ethanol therefore the PH value may show slight decrease....
It is The colour, melting and boiling points, density, hardness etc.
While the distillation is going on ,at 94.6% ethanol-water mixture forms an azeotrope which hampers further distillation.So ethanol cannot be made 100% pure.But concentration of ethanol can be increased by breaking the azeotrope by addition of benzene in large amount.
The melting point of water is 0 oC and the boiling point of water is 100 oC.
Pure water at STP boils at 100 degrees Celsius, which is 373.15 Kelvin.
The boiling point of pure water is typically about 100 degrees Celsius. This value can vary based on factors such as pressure. Additionally, impurities in a sample of water can alter its boiling point.
This value is very variable and specific foe each product.The boiling point is between 30 oC and 200 oC.
208 °F
% error = |experimental value - theoretical value|/theoretical value * 100% It is the absolute value of the differe nce betwee n the experime ntal a nd theoretical values divided by the theoretical value multiplied by 100%.
The presence of a non-volatile solute in a solution increases its boiling point. The amount of the elevation of the boiling point depends only on the number of molecules of solute present, and not on their identity. See the article entitled "Boiling-point elevation" on Wikipedia for the maths involved.
Percent error = (actual value - theoretical value) / theoretical value * 100%
Percent Error = {Absolute value (Experimental value - Theoretical Value) / Theoretical Value }*100
The boiling point of water decrease when the altitude increase; the value at Johannesburg is near 94 0C.
The value is 100 calories.